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CLIC module Experimental program for module array Module review, June 22 nd 2015Elena Daskalaki, BE-RF-MK.

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Presentation on theme: "CLIC module Experimental program for module array Module review, June 22 nd 2015Elena Daskalaki, BE-RF-MK."— Presentation transcript:

1 CLIC module Experimental program for module array Module review, June 22 nd 2015Elena Daskalaki, BE-RF-MK

2 2 Contents Introduction Objectives Experimental program Planning

3 3 Introduction 2011 - 2015 One module T0-1 First attempt to study the thermo- mechanical behaviour of CLIC (Phase-I) 2016 - … Module array: Three modules T0-1, T0-2, T1 Extension of experimental program (Phase-II)

4 4 Action Objectives Observation Active pre-alignment Fiducialization Alignment girders and components Thermo-mechanical behaviour under operating conditions Translate to real CLIC

5 5 Objectives Pre-align/inverse-align Ultimate objective: Learn how to… Know position of components in real- time FEA Simulator Can we use temperature? React to breakdown Can we regulate with water flow? Preserve pre-alignment under operating conditions

6 6 Experimental program TestDescription Fiducialization of components and supports for T0#2 and T1 Adjustment and test of new V-shaped supports Installation of fiducials and sensors interfaces Magnetic measurements for DBQ Alignment of components on their supports Measurements and adjustments Preparation of the 2 standard DBQ supports : assembly & validation Preparation of the 2 non-standard DBQ supports : design, assembly & validation Alignment of girders Installation of sensors Calibration & test Validation in situ Installation of cables & acquisition system Analysis of data Active algorithm Implementation Validation Active pre-alignment

7 7 Experimental program TestWhat we doWhat we learn Articulation point Shocks, loads, constraints T o Investigate stability over time Thermo- mechanical test without vacuum Nominal operation mode Transients Comparative assessment T0-1, T0-2 Study T1 Modules interconnection Comparative assessment of cradle sensors MB-DB dependence Vacuum testsApply vacuum Displacement of girders Roll Displacement of cradles Thermo- mechanical test under vacuum Vacuum Nominal operation mode Transients Steady-state and time constants under vacuum Modules interconnection MB-DB dependence Failure modes SAS breakdown PETS breakdown Temperature and displacement during breakdown Maximum acceptable duration for breakdown Vibration testsAdd accelerometers Sources of vibration Dangerous eigen-frequencies Observation

8 8 Experimental program TestDescription Inverse alignment Pre-align in negative displacements and test if under nominal operation the components align at correct zero position Regulate breakdown displacements Time constant depends on water flow Develop control algorithm to regulate water flow towards minimization of displacement Displacement prediction Can we predict displacement from temperature using a simple mathematical model? Development of real-time displacement diagnostic Comparison with simulator How many temperature inputs do we need? CTF3/CLIC Relate module to CTF3 CLEX Dogleg Action

9 9 Experimental program Document Meet CLIC tolerances? Finalize measurement methods Finalize procedures

10 10 Planning

11 11 Thank you for your attention

12 12 More details Themo-mechanical tests MeasurementTestTime (days) Steady-state10 TNominal temperatures only2 T, MZero-DBQ only-Zero2 T, MZero-Unloaded-Zero2 T, MZero-Loaded-Zero2 T, MUnloaded-Loaded-Unloaded2 Transients15 Tf 1, P 1, 20 o C1 Tf 2, P 1, 20 o C1 Tf 3, P 1, 20 o C1 Tf 1, P 2, 20 o C1 Tf 2, P 2, 20 o C1 Tf 3, P 2, 20 o C1 Tf 1, P 3, 20 o C1 Tf 2, P 3, 20 o C1 Tf 3, P 3, 20 o C1 T, Mf 1, P 1, 20 o C3 T, Mf 3, P 1, 20 o C3 Failure modes8 T SAS/PETS breakdown 2 T, M Loaded-SAS breakdown-Loaded 2 T, M SAS breakdown-PETS off-SAS breakdown 2 T, M Loaded-PETS off-Loaded 2

13 13 More details For type 0 & type 1 (RF components)  New support for the sensors, directly fixed on the girder and no more on the cradle  Design of a specific support, manufacturing & validation on the girder allowing a repeatable position after a change of T°  To be integrated on TBTM  Adaptation of the design on the cradle  DB quad support + 5 DOF motorization  Assembly of 2 supports  Design of 2 additional supports  Motorization & validation  Development of an active pre-alignment algorithm  Change the acquisition system  Add sensors  Solve rigid links between girders  validation of the “inverse alignment strategy”

14 14 Regulate breakdown displacement SAS flowT out Controller Control Valve T ref + - SAS flow Controller Control Valve breakdown detection T out

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